Examples of probability distribution in the following topics:
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- A probability distribution is a table of all disjoint outcomes and their associated probabilities.
- Table 2.5 shows the probability distribution for the sum of two dice.
- A probability distribution is a list of the possible outcomes with corresponding probabilities that satisfies three rules:
- Probability distributions can also be summarized in a bar plot.
- The probability distribution for the sum of two dice is shown in Table 2.5 and plotted in Figure 2.8.
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- Some of the more common discrete probability functions are binomial, geometric, hypergeometric, and Poisson.
- A probability distribution function is a pattern.
- You try to fit a probability problem into a pattern or distribution in order to perform the necessary calculations.
- These distributions are tools to make solving probability problems easier.
- Each distribution has its own special characteristics.
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- A continuous probability distribution is a representation of a variable that can take a continuous range of values.
- A continuous probability distribution is a probability distribution that has a probability density function.
- There are many examples of continuous probability distributions: normal, uniform, chi-squared, and others.
- The standard normal distribution has probability density function:
- Boxplot and probability density function of a normal distribution $$$N(0, 2)$.
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- Probability distributions for discrete random variables can be displayed as a formula, in a table, or in a graph.
- The probability distribution of a discrete random variable $x$ lists the values and their probabilities, where value $x_1$ has probability $p_1$, value $x_2$ has probability $x_2$, and so on.
- A discrete probability distribution can be described by a table, by a formula, or by a graph.
- The formula, table, and probability histogram satisfy the following necessary conditions of discrete probability distributions:
- Sometimes, the discrete probability distribution is referred to as the probability mass function (pmf).
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- The graph of a continuous probability distribution is a curve.
- The cumulative distribution function is used to evaluate probability as area.
- There are many continuous probability distributions.
- When using a continuous probability distribution to model probability, the distribution used is selected to best model and fit the particular situation.
- In this chapter and the next chapter, we will study the uniform distribution, the exponential distribution, and the normal distribution.
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- For instance, a probability based solely on the student variable is a marginal probability:
- If a probability is based on a single variable, it is a marginal probability.
- proportions in Table 2.13.The joint probability distribution of the parents and student
- Verify Table 2.14 represents a probability distribution: events are disjoint, all probabilities are non-negative, and the probabilities sum to 1.24.
- We can compute marginal probabilities using joint probabilities in simple cases.
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- Many distributions in real life can be approximated using normal distribution.
- Simply looking at probability histograms makes it easy to see what kind of distribution the data follow .
- A normal probability plot is a graphical technique for normality testing--assessing whether or not a data set is approximately normally distributed.
- We study the normal distribution extensively because many things in real life closely approximate the normal distribution, including:
- This probability histogram shows the probabilities that 0, 1, 2, 3, or 4 heads will show up on four tosses of a fair coin.
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- In the chapter on probability, we saw that the binomial distribution could be used to solve problems such as "If a fair coin is flipped 100 times, what is the probability of getting 60 or more heads?
- " The probability of exactly x heads out of N flips is computed using the formula:
- Therefore, to solve this problem, you compute the probability of 60 heads, then the probability of 61 heads, 62 heads, etc., and add up all these probabilities.
- The heights of the blue bars represent the probabilities.
- Note how well it approximates the binomial probabilities represented by the heights of the blue lines.